肠炎沙门氏菌和大肠杆菌重金属抗性基因型和表型预测的比较

Jeevan Rivera-Díaz, H. Phillippi, Nyduta Mbogo, Erin M. Nawrocki, E. Dudley
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引用次数: 0

摘要

肠道沙门氏菌和大肠杆菌是两种在世界范围内具有重要意义的致病菌,可感染胃肠道。食品供应链中的污染是一个令人关注的领域。动物饲料中可添加必需的微量元素,这些元素可作为营养添加剂,促进生长和健康,优化生产。细菌已经获得了许多金属抗性基因来适应金属的暴露。在这项研究中,我们的目的是评估肠道杆菌和大肠杆菌对某些重金属的抗性基因型和表型之间的相关性,以及偶联质粒转移抗微生物抗性基因(AMRGs)和重金属抗性基因(HMRGs)的能力。本研究共使用了10株菌株,其中5株为肠炎沙门氏菌,5株为大肠杆菌。测定了重金属的最低抑制浓度(MIC):铜、银、砷和碲。测试的分离物显示出对铜(5/10;50%)、砷(7/10;70%)和银(9/10;90%)的抗性。Cohen的Kappa统计用于分析基因型与表型的一致性。在取样的10个菌株中,遗传和表型重金属抗性之间的一致性对铜(kappa=0.4)是公平的,对砷(kappa=0.19)和碲化物(kappa=0)从零到轻微,对银(kappa=-0.19)没有一致性。在使用混合肉汤培养物对作为供体的所有5个沙门氏菌菌株进行的缀合实验中确定了HMRGs的转移。转移偶联物仅从基因型碲化物抗性菌株PSU-3260获得,其产生的转移频率为10⁻³每个供体的转运偶联物。在这种菌株中,碲化物抗性基因位于IncHI2型质粒上,该质粒与已知的HMRG传播沙门氏菌质粒具有高DNA序列同一性。我们的结果表明,在采样的肠炎沙门氏菌和大肠杆菌中,对重金属的基因和表型抗性之间没有显著的相关性。缺乏重金属的标准化方案和MIC临床断点支持了该领域研究的必要性。关键词:重金属;反对沙门氏菌大肠杆菌农业基因型;表型;麦克风
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Comparison of Genotypic and Phenotypic Predictions for Heavy Metal Resistance in Salmonella enterica and Escherichia coli
Salmonella enterica and Escherichia coli are two pathogenic bacteria of worldwide importance that can infect the gastrointestinal tract. Contamination in the food supply chain is an area of concern. Animal feed may be supplemented with essential trace elements, which function as nutritional additives to promote growth & health and optimize production. Bacteria have acquired many metal resistance genes to adapt to the exposure of metals. In this study, our objectives were to evaluate in S. enterica and E. coli, the correlation between the resistance genotype and phenotype to certain heavy metals, and the ability of conjugative plasmids to transfer antimicrobial resistance genes (AMRGs) and heavy metal resistance genes (HMRGs). A total of 10 strains, five S. enterica and five E. coli, were used for this study. Minimal inhibitory concentrations (MICs) were determined for heavy metals: copper, silver, arsenic, and tellurite. The tested isolates showed resistance to copper (5/10; 50%), arsenic (7/10; 70%), and silver (9/10; 90%). Cohen’s Kappa statistics were used to analyze genotype to phenotype agreements. Among the 10 strains sampled, the accordance between geno- and phenotypic heavy metal resistance was fair for copper (kappa = 0.4), none to slight for arsenic (kappa = 0.19) and tellurite (kappa = 0), and no agreement for silver (kappa = -0.19). The transfer of HMRGs was determined in a conjugation experiment performed for all five Salmonella strains as donors using mixed broth cultures. Transconjugants were obtained only from the genotypically tellurite-resistant strain PSU-3260, which yielded a transfer frequency of 10⁻³ transconjugants per donor. In such strain, the tellurite-resistant genes reside on an IncHI2-type plasmid that shares high DNA sequence identity with known HMRG-disseminating Salmonella plasmids. Our results indicated no considerable correlation between the geno- and phenotypic resistance towards heavy metals in the sampled S. enterica and E. coli. The necessity of research in this area is supported by the lack of standardized protocols and MIC clinical breakpoints for heavy metals. KEYWORDS: Heavy metal; resistance; Salmonella; E. coli; agriculture; genotype; phenotype; MIC
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